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Early nesting biology of the bee Caupolicana yarrowi (Cresson) (Colletidae, Diphaglossinae) and its cleptoparasite Triepeolus grandis (Friese) (Apidae, Nomadinae)

by: Rozen, Jerome G., Jr. (Jerome George), 1928- author

Publication date: 2019
Usage: Attribution-NonCommercial-ShareAlike 4.0 International
Topics: Caupolicana yarrowi, Nests, Eggs, Parasites, Triepeolus grandis, Bees, Nectar, Insects, Caupolicana yarrowi -- Nests, Caupolicana yarrowi -- Eggs, Caupolicana yarrowi -- Parasites, Bees -- Nests -- Arizona -- Cochise County, Bees -- Eggs -- Arizona -- Cochise County, Bees -- Parasites -- Arizona -- Cochise County, Bees -- Arizona -- Cochise County, Bees -- Southwest, New, Bees -- Mexico, Insects -- Nests -- Arizona -- Cochise County, Insects -- Eggs -- Arizona -- Cochise County, Insects -- Parasites -- Arizona -- Cochise County, Insects -- Arizona -- Cochise County, Insects -- Southwest, New, Insects -- Mexico, Insects, Insects, Insects
Publisher: New York, NY : American Museum of Natural History
Collection: americanmuseumnaturalhistory; biodiversity
Contributor: American Museum of Natural History Library
Language: English
Rights: http://biodiversitylibrary.org/permissions
Rights-holder: American Museum of Natural History Library
Volume: no. 3931
Item Size: 114.8M

20 pages : 26 cm

The first part of this publication, written by a group of participants in Bee Course 2018, results from the discovery of three nests of Caupolicana yarrowi (Cresson, 1875) at the base of the Chiricahua Mountains in southeastern Arizona. The nests are deep with branching laterals that usually connect to large vertical brood cells by an upward turn before curving downward and attaching to the top of the chambers. This loop of the lateral thus seems to serve as a "sink trap," excluding rainwater from reaching open cells during provisioning. Although mature larvae had not yet developed, an egg of C. yarrowi was discovered floating on the provisions allowing an SEM examination of its chorion, the first such study for any egg of the Diphaglossinae. Larval food for this species at this site came from Solanum elaeagnifolium Cav. (Solanaceae). Nests were parasitized by Triepeolus grandis (Friese, 1917) (Epeolini), which previously was known to attack only Ptiloglossa (Diphaglossinae: Caupolicanini). The subterranean nest cells of the desert bee Caupolicana yarrowi (Colletidae), which are enveloped by a casing of hardened soil that easily separates from the surrounding matrix, are discussed in a separate appendix. Chemical analysis revealed the casing to be rich in reducing sugars, indicating that the mother bee had regurgitated floral nectar onto the rough interior walls of the cell cavity before smoothing and waterproofing them. This novel use of nectar in nest construction is compared with that of other bee species that bring water to a nest site to soften soil for excavation

Caption title

"June 28, 2019."

Appendix, pages 18-20: Use of nectar by the desert bee Caupolicana yarrowi (Colletidae) in cell construction / James H. Cane and Jerome G. Rozen, Jr

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Includes bibliographical references (pages 16-18)

Abstract: The first part of this publication, written by a group of participants in Bee Course 2018, results from the discovery of three nests of Caupolicana yarrowi (Cresson, 1875) at the base of the Chiricahua Mountains in southeastern Arizona. The nests are deep with branching laterals that usually connect to large vertical brood cells by an upward turn before curving downward and attaching to the top of the chambers. This loop of the lateral thus seems to serve as a 'sink trap,' excluding rainwater from reaching open cells during provisioning. Although mature larvae had not yet developed, an egg of C. yarrowi was discovered floating on the provisions allowing an SEM examination of its chorion, the first such study for any egg of the Diphaglossinae. Larval food for this species at this site came from Solanum elaeagnifolium Cav. (Solanaceae). Nests were parasitized by Triepeolus grandis (Friese, 1917) (Epeolini), which previously was known to attack only Ptiloglossa (Diphaglossinae: Caupolicanini). The subterranean nest cells of the desert bee Caupolicana yarrowi (Colletidae), which are enveloped by a casing of hardened soil that easily separates from the surrounding matrix, are discussed in a separate appendix. Chemical analysis revealed the casing to be rich in reducing sugars, indicating that the mother bee had regurgitated floral nectar onto the rough interior walls of the cell cavity before smoothing and waterproofing them. This novel use of nectar in nest construction is compared with that of other bee species that bring water to a nest site to soften soil for excavation.
Addeddate: 2019-07-05 20:19:14
Associated-names: Danforth, Bryan N., author; Smith, Corey Shepard, author; Decker, Brenna L., author; Dorian, Nicholas N., author; Dority, Delina, author; Kilpatrick, Shelby Kerrin, author; Krichilsky, Erin, author; Laws, Angela N., author; Urban-Mead, Katherine R., author; Rozen, Jerome G., Jr. (Jerome George), 1928- Use of nectar by the desert bee Caupolicana yarrowi (Colletidae) in cell construction; Cane, James H. (James Harley), 1955- Use of nectar by the desert bee Caupolicana yarrowi (Colletidae) in cell construction
Call number: amnhnovitates3931
Call-number: amnhnovitates3931
External-identifier: urn:doi:10.1206/3931.1
Foldoutcount: 0
Genre: bibliography
Identifier: earlynestingbio00roze
Identifier-ark: ark:/13960/t5gb9vj78
Identifier-bib: amnhnovitates3931
Ocr: ABBYY FineReader 11.0 (Extended OCR)
Pages: 20
Possible copyright status: In copyright. Digitized with the permission of the rights holder.
Ppi: 451
Year: 2019